PolyPower® Solar
NextGen Nano is revolutionizing renewable energy with its cutting-edge PolyPower® organic photovoltaic (OPV) solar cells and transparent OLED (TOLED) displays. These innovative technologies prioritize energy efficiency and sustainability. The PolyPower® solar cells achieve an impressive 85% energy efficiency, utilizing eco-friendly biopolymers to create flexible, transparent panels ideal for a wide range of applications.
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Agrivoltaics
Agrivoltaic systems use semi-transparent PV films to produce energy while supporting crop growth, boosting efficiency and sustainability.
Agrivoltaics
The Future of Sustainable Farming and Solar Energy Integration
In agrivoltaics systems, semi-transparent photovoltaic (PV) films enable dual land use by generating electrical energy while transmitting specific wavelengths of sunlight essential for photosynthesis. These advanced materials optimize the solar spectrum—absorbing non-photosynthetically active radiation (non-PAR) for energy conversion while allowing photosynthetically active radiation (PAR) to reach crops—thereby enhancing overall system efficiency and agro-sustainability.
- Crop Protection & Enhanced Yields
- Livestock Grazing with Solar Panels
- Water Conservation in Arid Regions
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Agrivoltaics
Agrivoltaic systems use semi-transparent PV films to produce energy while supporting crop growth, boosting efficiency and sustainability.
The Future of Sustainable Farming and Solar Energy Integration
In agrivoltaics systems, semi-transparent photovoltaic (PV) films enable dual land use by generating electrical energy while transmitting specific wavelengths of sunlight essential for photosynthesis. These advanced materials optimize the solar spectrum—absorbing non-photosynthetically active radiation (non-PAR) for energy conversion while allowing photosynthetically active radiation (PAR) to reach crops—thereby enhancing overall system efficiency and agro-sustainability.
- Crop Protection & Enhanced Yields
- Livestock Grazing with Solar Panels
- Water Conservation in Arid Regions
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Automotive Glass
Solar-integrated automotive glass turns windows into power sources, extending battery life and enabling cleaner, more sustainable mobility.
Automotive Glass
Innovation, Safety, and the Future of Smart Vehicles
Imagine a vehicle that powers itself while it sits in the sun. By seamlessly integrating advanced solar cell technology into automotive glass, we enable continuous clean energy generation — extending battery life, reducing emissions, and pushing the boundaries of sustainable mobility. This innovation turns every window into a power source, helping automakers meet green targets while enhancing user convenience and vehicle range.
- Key Applications of Automotive Glass
- Heads-Up Displays (HUDs) & Augmented Reality
- Energy-Efficient & Smart Glass Solutions
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Automotive Glass
Solar-integrated automotive glass turns windows into power sources, extending battery life and enabling cleaner, more sustainable mobility.
Innovation, Safety, and the Future of Smart Vehicles
Imagine a vehicle that powers itself while it sits in the sun. By seamlessly integrating advanced solar cell technology into automotive glass, we enable continuous clean energy generation — extending battery life, reducing emissions, and pushing the boundaries of sustainable mobility. This innovation turns every window into a power source, helping automakers meet green targets while enhancing user convenience and vehicle range.
- Key Applications of Automotive Glass
- Heads-Up Displays (HUDs) & Augmented Reality
- Energy-Efficient & Smart Glass Solutions
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Aerospace Application
They integrate flexibly onto UAVs, aircraft windows, satellites, and space habitats, powering aerospace systems with lightweight, transparent efficiency.
Aerospace Application
Transparent Solar Technology for Aerospace Innovation
Transparent solar cells offer a cutting-edge solution for aerospace applications by enabling seamless power generation on aircraft and spacecraft surfaces—without compromising visibility, aerodynamics, or design integrity. Integrating transparent, flexible, lightweight solar cells on external morphology of Powering UAVs (Drones), aircraft windows and canopies, satellites and cubesats, space habitats and stations.
- UAVs (Drones)
- Aircraft Windows & Canopies
- Satellites & Cubesats
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Aerospace Application
They integrate flexibly onto UAVs, aircraft windows, satellites, and space habitats, powering aerospace systems with lightweight, transparent efficiency.
Transparent Solar Technology for Aerospace Innovation
Transparent solar cells offer a cutting-edge solution for aerospace applications by enabling seamless power generation on aircraft and spacecraft surfaces—without compromising visibility, aerodynamics, or design integrity. Integrating transparent, flexible, lightweight solar cells on external morphology of Powering UAVs (Drones), aircraft windows and canopies, satellites and cubesats, space habitats and stations.
- UAVs (Drones)
- Aircraft Windows & Canopies
- Satellites & Cubesats
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Tranparent OLED’s Displays
Transparent displays show digital content while remaining see-through, blending interactivity with visibility — ideal for aerospace, automotive, retail, and AR.
OLED’s Displays
Display Technology: Merging Vision and Information
Transparent display technology refers to digital screens that allow users to view content on the display while simultaneously seeing through it — combining visual interactivity with transparency. This innovation is especially relevant in sectors like aerospace, automotive, retail, and AR (augmented reality).
- Aerospace
- Automotive
- Retail & AR
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Tranparent OLED’s Displays
Transparent displays show digital content while remaining see-through, blending interactivity with visibility — ideal for aerospace, automotive, retail, and AR.
Display Technology: Merging Vision and Information
Transparent display technology refers to digital screens that allow users to view content on the display while simultaneously seeing through it — combining visual interactivity with transparency. This innovation is especially relevant in sectors like aerospace, automotive, retail, and AR (augmented reality).
- Aerospace
- Automotive
- Retail & AR
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Building-Integrated Photovoltaics
Generate clean energy and enhance building energy efficiency with solar technology seamlessly integrated into façades, windows, and other architectural elements — combining functionality with modern design.
Building-Integrated Photovoltaics
Merging Architecture with Renewable Energy
Building-Integrated Photovoltaics (BIPV) seamlessly incorporate solar energy generation into the structural and aesthetic design of buildings, replacing conventional materials like roofs, facades, and windows with solar-active elements. Unlike traditional rooftop solar panels, BIPV systems serve a dual purpose: they function as both building envelopes and power generators, enhancing energy efficiency while maintaining (or even improving) architectural appeal.
- Solar Facades & Curtain Walls
- PV Roofing (Solar Tiles & Shingles)
- Transparent Solar Windows
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Building-Integrated Photovoltaics
Generate clean energy and enhance building energy efficiency with solar technology seamlessly integrated into façades, windows, and other architectural elements — combining functionality with modern design.
Merging Architecture with Renewable Energy
Building-Integrated Photovoltaics (BIPV) seamlessly incorporate solar energy generation into the structural and aesthetic design of buildings, replacing conventional materials like roofs, facades, and windows with solar-active elements. Unlike traditional rooftop solar panels, BIPV systems serve a dual purpose: they function as both building envelopes and power generators, enhancing energy efficiency while maintaining (or even improving) architectural appeal.
- Solar Facades & Curtain Walls
- PV Roofing (Solar Tiles & Shingles)
- Transparent Solar Windows
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ETFE Roofing
Generate clean energy and enhance building energy efficiency with solar technology seamlessly integrated into façades, windows, and other architectural elements — combining functionality with modern design.
ETFE Roofing
Lightweight, Durable, and Sustainable Innovation in Modern Architecture
ETFE (Ethylene Tetrafluoroethylene) is a high-performance fluoropolymer plastic revolutionizing roofing and cladding systems in modern architecture. Known for its lightweight, durability, and transparency, ETFE is widely used in stadiums, airports, greenhouses, and eco-friendly buildings. Unlike traditional glass, ETFE is up to 99% lighter, resistant to UV radiation, and can withstand extreme weather conditions.
- Stadiums & Sports Arenas
- Greenhouses & Botanical Gardens
- Sustainable & Energy-Efficient Buildings
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ETFE Roofing
Generate clean energy and enhance building energy efficiency with solar technology seamlessly integrated into façades, windows, and other architectural elements — combining functionality with modern design.
Lightweight, Durable, and Sustainable Innovation in Modern Architecture
ETFE (Ethylene Tetrafluoroethylene) is a high-performance fluoropolymer plastic revolutionizing roofing and cladding systems in modern architecture. Known for its lightweight, durability, and transparency, ETFE is widely used in stadiums, airports, greenhouses, and eco-friendly buildings. Unlike traditional glass, ETFE is up to 99% lighter, resistant to UV radiation, and can withstand extreme weather conditions.
- Stadiums & Sports Arenas
- Greenhouses & Botanical Gardens
- Sustainable & Energy-Efficient Buildings
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Facades & Skylights
Generate clean energy and enhance building energy efficiency with solar technology seamlessly integrated into façades, windows, and other architectural elements — combining functionality with modern design.
Facades & Skylights
Where Architecture Meets Performance and Aesthetics
Modern facades and skylights are no longer just passive building envelopes—they are dynamic systems that enhance energy efficiency, occupant comfort, and architectural identity. Advances in materials, smart technologies, and sustainable design have transformed facades into responsive, climate-adaptive shields, while skylights now integrate daylight optimization, solar control, and even energy generation.
- Double-Skin Facades (DSF)
- Dynamic & Kinetic Facades
- Energy-Generating Skylights (BIPV Glass)
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Facades & Skylights
Generate clean energy and enhance building energy efficiency with solar technology seamlessly integrated into façades, windows, and other architectural elements — combining functionality with modern design.
Where Architecture Meets Performance and Aesthetics
Modern facades and skylights are no longer just passive building envelopes—they are dynamic systems that enhance energy efficiency, occupant comfort, and architectural identity. Advances in materials, smart technologies, and sustainable design have transformed facades into responsive, climate-adaptive shields, while skylights now integrate daylight optimization, solar control, and even energy generation.
- Double-Skin Facades (DSF)
- Dynamic & Kinetic Facades
- Energy-Generating Skylights (BIPV Glass)
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Smart Street Furniture & IoT
Generate clean energy and enhance building energy efficiency with solar technology seamlessly integrated into façades, windows, and other architectural elements — combining functionality with modern design.
Smart Street Furniture & IoT
Revolutionizing Urban Spaces with Connected Technology
Smart street furniture integrates Internet of Things (IoT) technology into everyday urban infrastructure—transforming benches, bus stops, streetlights, and waste bins into interactive, data-driven hubs. These innovations enhance public safety, sustainability, and connectivity while improving city management and citizen engagement.
By embedding sensors, solar panels, Wi-Fi, and real-time monitoring systems, smart street furniture helps create smarter, greener, and more efficient cities. From solar-powered charging benches to AI-enabled waste management, IoT-driven urban design is redefining public spaces for the future.
- Solar-Powered Smart Benches
- IoT-Enabled Smart Streetlights
- AI-Based Waste Management Bins
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Smart Street Furniture & IoT
Generate clean energy and enhance building energy efficiency with solar technology seamlessly integrated into façades, windows, and other architectural elements — combining functionality with modern design.
Revolutionizing Urban Spaces with Connected Technology
Smart street furniture integrates Internet of Things (IoT) technology into everyday urban infrastructure—transforming benches, bus stops, streetlights, and waste bins into interactive, data-driven hubs. These innovations enhance public safety, sustainability, and connectivity while improving city management and citizen engagement.
By embedding sensors, solar panels, Wi-Fi, and real-time monitoring systems, smart street furniture helps create smarter, greener, and more efficient cities. From solar-powered charging benches to AI-enabled waste management, IoT-driven urban design is redefining public spaces for the future.
- Solar-Powered Smart Benches
- IoT-Enabled Smart Streetlights
- AI-Based Waste Management Bins
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Powering Displays & Sensors
Generate clean energy and enhance building energy efficiency with solar technology seamlessly integrated into façades, windows, and other architectural elements — combining functionality with modern design.
Powering Displays & Sensors
Energy Innovations for Smarter Devices
Modern displays and sensors are the backbone of IoT, smart cities, and interactive technologies—but keeping them powered efficiently is a growing challenge. From digital billboards to environmental monitoring systems, energy solutions must balance reliability, sustainability, and cost-effectiveness. Innovations like solar-integrated panels, kinetic energy harvesting, and ultra-low-power designs are transforming how displays and sensors stay operational 24/7.
- Solar-Powered Digital Signage
- Energy-Harvesting Sensors
- Low-Power E-Paper & OLED Displays
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Powering Displays & Sensors
Generate clean energy and enhance building energy efficiency with solar technology seamlessly integrated into façades, windows, and other architectural elements — combining functionality with modern design.
Energy Innovations for Smarter Devices
Modern displays and sensors are the backbone of IoT, smart cities, and interactive technologies—but keeping them powered efficiently is a growing challenge. From digital billboards to environmental monitoring systems, energy solutions must balance reliability, sustainability, and cost-effectiveness. Innovations like solar-integrated panels, kinetic energy harvesting, and ultra-low-power designs are transforming how displays and sensors stay operational 24/7.
- Solar-Powered Digital Signage
- Energy-Harvesting Sensors
- Low-Power E-Paper & OLED Displays
